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Project Coordinator

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ICCS/NTUA

 

Dr. Christos Kouloumentas
Tel: +30 210 772 2057
mail: ckou(at)mail.ntua.gr 
 
Prof. Hercules Avramopoulos
Tel: +30 210 772 2057
mail: hav(at)mail.ntua.gr
 
Technical Manager
III-V lab
Dr. Agnieszka Konczykowska
Tel: +33 (0)1 6040 6867
mail: agnieszka.konczykowska
(at)3-5lab.fr
 

Publications

 

publications icon

2017

[38] M. Quagliotti, et al., "Power and cost savings in metro and data center networks using optical transceivers based on a polymer substrate", accepted for oral presentation at FOTONICA 2017, Padova, May 3-5, 2017, paper B5_05.

[37] A. Konczykowska, J. Dupuy, F. Jorge, M. Riet, and V. Nodjiadjim, "Extreme Speed Power-DAC : Leveraging InP DHBT for Ultimate Capacity Single-Carrier Optical Transmissions," in Optical Fiber Communication Conference, OSA Technical Digest (online) (Optical Society of America, 2017), paper M3D.4.

[36] M. Kleinert, et. al., "Photonic integrated devices and functions on hybrid polymer platform", Proc. SPIE 10098, Physics and Simulation of Optoelectronic Devices XXV, 100981A (February 22, 2017); doi:10.1117/12.2256987.

2016

[35] H. Mardoyan, et al., "Single Carrier 168-Gbit/s Line-Rate PAM direct detection transmission using high-speed Selector Power DAC for Optical Interconnects," in IEEE Journal of Lightwave Technology, vol. 34, no. 7, April 2016; Pages: 1593 - 1598. (invited).

[34] H. Mardoyan, et al., "84-, 100-, and 107-GBd PAM-4 Intensity-Modulation Direct-Detection Transceiver for Datacenter Interconnects," in Journal of Lightwave Technology , vol.PP, no.99, pp.1-1 doi: 10.1109/JLT.2016 .2646327.

[33] M. A. Mestre et al., "100-Gbaud PAM-4 Intensity-Modulation Direct-Detection Transceiver for Datacenter Interconnect," ECOC 2016; 42nd European Conference on Optical Communication, Dusseldorf, Germany, 2016, pp. 1-3.

[32] M. A. Mestre et al., "Compact InP-Based DFB-EAM Enabling PAM-4 112 Gb/s Transmission Over 2 km," in Journal of Lightwave Technology, vol. 34, no. 7, pp. 1572-1578, April1, 1 2016. doi: 10.1109/JLT.2015.2508677.

[31] J. Renaudier, et al., "Multi Rate IMDD Transceivers for Optical Interconnects Using Coded Modulation," in Optical Fiber Communication Conference, OSA Technical Digest (online) (Optical Society of America, 2016), paper Tu2J.2.

[30] G. Raybon, et. al., "Single Carrier High Symbol Rate Transmitterfor Data Rates up to 1.0 Tb/s," in Optical Fiber Communication Conference, OSA Technical Digest (online) (Optical Society of America, 2016), paper Th3A.2.

[29] V. Katopodis, et. al., "Multi-Flow Transmitter Based on Polarization and Optical Carrier Management on Optical Polymers", IEEE Photonics Technology Letters 2016, 28 (11), 7416636, pp. 1169-1172.

[28] V. Katopodis, et. al., "Polarization-, carrier-, and format-selectable optical flow generation based on a multi-flow transmitter using passive polymers", International Conference on Transparent Optical Networks 2016-August, 7550583 (invited).

[27] D. de Felipe, et. al., "Recent Developments in Polymer-Based Photonic Components for Disruptive Capacity Upgrade in Data Centers," in Journal of Lightwave Technology, vol. 35, no. 4, pp. 683-689, Feb.15, 15 2017. doi: 10.1109/JLT.2016.2611240.

[26] D. de Felipe Mesquida, M. Kleinert, C. Zawadzki, W. Brinker, T. Goebel, M. Moehrle, and N. Keil, "Recent Developments in the Polymer Photonic Integration Technology," in Advanced Photonics 2016 (IPR, NOMA, Sensors, Networks, SPPCom, SOF), OSA technical Digest (online) (Optical Society of America, 2016), paper ITu3A.1.

[25] N. Keil, D. Felipe, Z. Zhang, M. Kleinert, C. Zawadzki, W. Brinker, A. Polatynski, G. Irmscher, M. Möhrle, H. Bach, and M. Schell, "Novel Integration Technologies for Disruptive Capacity Upgrade in Data Centre Systems," in Optical Fiber Communication Conference, OSA Technical Digest (online) (Optical Society of America, 2016), paper Th3F.3.

2015

[24] Y. Dong, T. K. Johansen, V. Zhurbenko, A. Beretta, A. Vannucci and G. Locatelli, "A 3D hybrid integration methodology for terabit transceivers," 2015 SBMO/IEEE MTT-S International Microwave and Optoelectronics Conference (IMOC), Porto de Galinhas, 2015, pp. 1-5.

[23] Z. Zhang, et. al., "Hybrid Photonic Integration on a Polymer Platform", Photonics 2015, 2, no. 3: 1005-1026.

[22] G. Raybon, et. al., "Single-Carrier All-ETDM 1.08-Terabit/s Line Rate PDM-64-QAM Transmitter Using a High-Speed 3-Bit Multiplexing DAC", PDP session in 2015 IEEE Photonics Conference, 4 - 8 October 2015, Reston, Virginia USA.

[21] C. Caillaud, et. al., "Low cost 112 Gb/s InP DFB-EAM for PAM-4 2 km Transmission", PDP.1.5, ECOC 2015, Valencia.

[20] M. A. Mestre, et. al., "Direct Detection Transceiver at 150-Gbit/s Net Data Rate Using PAM 8 for Optical Interconnects", PDP.2.4, ECOC 2015, Valencia.

[19] Ziyang Zhang, Norbert Keil, "Thermo-optic devices on polymer platform", Optics Communications, Available online 13 August 2015, Page MQ1627, ISSN 0030-4018, http://dx.doi.org/10.1016/j.optcom.2015.08.026.

[18] A. Konczykowska, et. al., "84 GBd (168 Gbit/s) PAM-4 3.7 Vpp power DAC in InP DHBT for short reach and long haul optical networks", Electronics Letters, 2015, DOI: 10.1049/el.2015.2316 IET Digital Library, http://digital-library.theiet.org/content/journals/10.1049/el.2015.2316

[17] P. Groumas, et. al., "Tunable 100 Gbaud Transmitter Based on Hybrid Polymer-to-Polymer Integration for Flexible Optical Interconnects," in Lightwave Technology, Journal of , vol.PP, no.99, pp.1-1. doi: 10.1109/JLT.2015.2463730.

[16] V. Katopodis, et. al., "Passive and electro-optic polymer photonics and InP electronics integration for multi-flow terabit transceivers", FOTONICA 2015-the 17th Italian National Conference on Photonic Technologies, Turin, 6-8 May 2015, paper A6.2.

[15] Z. Zhang, A. M. Novo, A. Polatynski, T. Mueller, G. Irmscher, D. Felipe, M. Kleinert, W. Brinker, C. Zawadzki, and N. Keil, "Colorless, Dual-Polarization 90° Hybrid with Integrated VOAs and Local Oscillator on Polymer Platform," in Proc. OFC 2015, paper Th1F.3, Los Angeles USA, March 22-26, 2015. Paper available here.

[14] Z. Zhang, V. Katopodis, P. Groumas, A. Konczykowska, J. Y. Dupuy, A. Beretta, A. Dede, E. Miller, J. H. Choi, P. Harati, F. Jorge, V. Nodjiadjim, R. Dinu, G. Cangini, A. Vannucci, D. Felipe, A. Maese-Novo, N. Keil, H. G. Bach, N. Grote, H. Avramopoulos, and Ch. Kouloumentas, "Passive and Electro-Optic Polymer Photonics and InP Electronics Integration," in Proc. SPIE Optics + Optoelectronics 2015, invited paper 9516-2, Prague Czech Republic, April 13-16, 2015. Presentation available here.

[13] J.-Y. Dupuy, F. Jorge, M. Riet, V. Nodjiadjim, H. Aubry, A. Konczykowska, "59-dBΩ 68-GHz Variable Gain-Bandwidth Differential Linear TIA in 0.7-µm InP DHBT for 400-Gb/s Optical Communication Systems," Compound Semiconductor IC Symposium, October 2015.

[12] V. Katopodis, Z. Zhang, P. Groumas, A. Konczykowska, J. Y. Dupuy, A. Beretta, A. Dede, E. Miller, J. H. Choi, P. Harati, F. Jorge, V. Nodjiadjim, R. Dinu, G. Cangini, A. Vannucci, N. Keil, H. G. Bach, N. Grote, H. Avramopoulos, and Ch. Kouloumentas, "Tunable Transmitter for Serial 100 Gb/s Connectivity Inside Flexible Data Centers Using Hybrid Polymer Integration," in Proc. OFC 2015, paper Tu2A.3, Los Angeles USA, March 22-26, 2015.

[11] A. Maese-Novo, et al., "Thermally optimized variable optical attenuators on polymer platform", Applied Optics, Vol. 54, Issue 3, pp. 569-575 (2015). 

[10] T. Mueller, et. al., " Switchable dual-polarization external cavity tunable laser", Optics Letters, Vol. 40, Issue 4, pp. 447-450 (2015).

[9] M. Kleinert, et. al., " Recent Progress in InP/Polymer-based Devices for Telecom and Data Center Applications", invited talk at Photonics West 2015, San Francisco, USA.

2014

[8] P. Groumas, V. Katopodis, J. H. Choi,  H. G. Bach, J. Y. Dupuy, A. Konczykowska, Z. Zhang, P. Harati, E. Miller, A. Beretta, L. Gounaridis, F. Jorge, V. Nodjiadjim, A. Dede, A. Vannucci, G. Cangini, R. Dinu, N. Keil, N. Grote, H. Avramopoulos, and Ch. Kouloumentas, “Multi-100 GbE and 400 GbE Interfaces for Intra-Data Center Networks Based on Arrayed Transceivers with Serial 100 Gb/s Operation,” accepted for publication in the special issue of IEEE/OSA JLT on Optical Interconnects (to be published in Mar/Apr 2015, DOI:10.1109/JLT.2014.2363107).

[7] Z. Zhang, et al, “301-nm wavelength tunable differentially driven all-polymer optical filter,” OSA Optics Letters, vol. 39, (17), pp. 5170-5172, Aug 2014.

[6] Z. Zhang, et. al., "Control the flow of light and manipulate its polarization state on polymer-based photonic integration platform - FP7 - PANTHER project", invited talk in a session on dissemination of EU projects at EOSAM 2014, Berlin, Germany.

[5] D. Felipe, Z. Zhang, W. Brinker, M. Kleinert, A.M. Novo, C. Zawadzki, M. Moehrle, N. Keil, “Polymer-Based External Cavity Lasers: Tuning Efficiency, Reliability, and Polarization Diversity,” IEEE Photon. Technol. Lett., vol.26 (14), pp. 1391-1394, Jul 15, 2014.

[4] J.-Y. Dupuy, F. Jorge, A. Konczykowska, M. Riet, P. Berdaguer, V. Nodjiadjim, B. Duval and J. Godin, “A 5.75-Vpp 100-Gb/s InP-DHBT-based differential 2:1-selector-driver module for 100-GBd optical communication systems,” submitted to IEE Electronic Letters.

[3] H. Avramopoulos, V. Katopodis, P. Groumas, L. Gounaridis, A. Konczykowska, Z. Zhang, G. De Valicourt, R. Dinu, A. Vannucci, T. Johansen, A. Pagano, and C. Kouloumentas, "Passive and electro-optic polymer photonics and InP electronics integration for multi-flow Terabit transceivers at edge SDN switches and data-center gateways", in Proc. ICTON 2014, Graz, Austria, Jul. 2014, Article number 6876540.

[2] J. Godin, J-Y. Dupuy, F. Jorge, F. Blache, M. Riet, V. Nodjiadjim, P. Berdaguer, B. Duval and A. Konczykowska, “InP DHBT Mux-Drivers for very high symbol rate optical communications,” Compound Semiconductor IC Symposium '14.

[1] C. Spatharakis, N. Argyris, S. Dris, and H. Avramopoulos, “Frequency Offset Estimation and Carrier Phase Recovery for High-order QAM Constellations Using the Viterbi-Viterbi Monomial Estimator,” in Proc. CSNDSP 2014, DOI: 10.13140/2.1.4332.1608, Manchester UK, Jul 2014.